Load spreader bar pipe connection sleeve

ABSTRACT

The invention provides a spreader bar pipe connection sleeve for use in a spreader bar assembly. The pipe connection sleeve may include a flange having a first side and a second side, the first side may include a groove adapted for receiving an end of a first spreader pipe and the second side may include a groove adapted for receiving an end of a second spreader pipe. A first insertion part may include a distal end extending from the flange first side and may include a shoulder on the distal end, the shoulder being adapted for abutment with an inside diameter of the first spreader pipe. A second insertion part may include a distal end extending from the flange second side and a shoulder on the distal end. The shoulder may be adapted for abutment with an inside diameter of the second spreader pipe. The invention may include a fastener mechanism for securing at least one of the distal ends to one of the spreader pipes. The first and second spreader pipes may include different diameters and may include machined end plates. The grooves may extend outward from and/or recess into the flange.

CROSS REFERENCE TO RELATED APPLICATION

This application is a divisional application of U.S. patent applicationSer. No. 12/055,826, entitled “Load Spreader Bar End Cap,” filed Mar.26, 2008, the application of which is related to and claims priority toU.S. Provisional Application Ser. No. 60/970,041, entitled “LoadSpreader Bar System,” filed Sep. 5, 2007, the disclosures of which arespecifically incorporated by reference herein.

FIELD OF THE INVENTION

The present invention relates generally to load spreader bar pipeconnection sleeves typically used in the shipping and container industryfor the lifting and supporting of cargo.

BACKGROUND OF THE INVENTION

In the related and relevant “below the hook” art technology, shippingcontainers and similar loads are typically lifted by means of a“spreader bar” assembly that can generally consist of end caps thatinsert into each end of a pipe segment wherein the end caps areconnected by a “Y” cable to a crane or other lifting mechanism. Spreaderbar assemblies of various lengths can be made by using pipe connectionsin-between different lengths of pipe.

A variety of prior art patent documents relate to spreader barassemblies or couplings for connecting a range of pipe segments. Forinstance, U.S. Pat. No. 160,301 to Brancher et al. and U.S. Pat. No.367,578 to Babb are related to pipe couplings. Referring specifically toFIG. 4 in Brancher, a pipe connector is shown for joining two sectionsof pipe. Babb also discloses an apparatus for coupling two sections ofpipe with reference to FIGS. 2 and 3. However, the coupling devicesshown in these two references are merely indicative of known priordevices for joining two segments of pipe.

Four patent documents in the name of Khachaturian relate to spreader barassemblies. Namely, U.S. Pat. No. 4,538,849 discloses an adjustablespreader bar assembly having end portions which can be removably fittedto the ends of a section of pipe. The end caps disclosed in this patentcan be most readily seen in FIGS. 4 through 11.

U.S. Pat. No. 5,863,085 describes another spreader bar assemblyincluding a rigid elongated support bar to which a pair of end caps isremovably connected wherein the end caps have sockets that fit over theends of the bar. Each of the end caps also includes three pins mountedon a pair of longitudinally extending plates on the extreme end of eachof the end caps for the attachment of slings directly to these pins forthe elimination of the need for shackles.

U.S. Pat. Nos. 6,079,760 and 6,296,288 relate to a multi-part spreaderbar arrangement including a plurality of connectible sections includingat least a pair of bar sections and a pair of end caps and alsoincluding detachable connections between the connectible sections.Referring specifically to the figures, the couplings and end capsdisclosed in this patent are of threaded engagement.

Several other patent documents are of background interest as they relateto spreader bar assemblies. For example, U.S. Pat. No. 3,206,243 toMiles discloses a spreader bar system comprising end caps which aremoveable under a load through a pivotal connecting link in order to lockthe tips of the end caps in a load lifting position to protect againstthe possibility of the end caps sliding.

U.S. Pat. No. 4,215,891 to Thiele discloses a sling mounting head havinga solid central section, a retaining boss extending rearwardly from arear face of the central section and insertable into a tubular end of apipe, and two fork plates extending forwardly from a front face of acentral section. The fork plates are provided with holes through which aconnecting pin releasably extends for connecting sling chains to thedevice.

U.S. Pat. No. 4,842,314 to Bellow discloses a pipe lift cap assemblyincluding typical end caps for connection to a spreader bar.

U.S. Pat. No. 5,603,544 to Bishop et al. describes a compression capassembly for a spreader pipe including end caps which are rigged to aspreader pipe and compressed onto the pipe through the use of bolts andthe like, as shown in FIGS. 2 and 3.

Finally, U.S. Patent Application Publication No. 2005/0199567 to Tardiffdiscloses a spreader bar apparatus including a plurality of pipesections which are connected through the use of a coupling wherein thecoupling is connected to the pipe segments through the use of removablepins, as shown in FIGS. 1, 3, and 6.

Several disadvantages are known in the prior art. Generally, theinstallation or detachment of items for use in different lifts is a timeconsuming and laborious process. Usually, a user must stock pile varioussized completed assemblies (spreader pipes attached to end caps, etc.)in order to handle different sized loads. Additionally, it is known thatmany of these prior art assemblies are made in permanent assemblies,such as end caps welded to spreader pipes, or in a manner that isdifficult to assemble/disassemble (a multitude of bolts and nuts, etc.).Even further, it is known that tremendous pressures can be applied tothe spreader bar systems during use and the prior art assemblies havebeen known to fail under such pressures, especially at mid-span joints,due to improper seating of junctions. As such, there remains a need fora load spreader bar system that allows for quick connect and disconnectof load end caps and optional pipe connection sleeves and reducersleeves in order to allow for easier transport of long spreaders withdifferent diameter pipes.

SUMMARY OF THE INVENTION

The present invention is directed to solve several disadvantages ofprior art assemblies. Embodiments consistent with the present inventionprovide an improved spreader bar assembly that may include, among otherfeatures, a pipe connection sleeve for use in a spreader bar assembly.The pipe connection sleeve may include a flange having a first side anda second side, the first side may include a groove adapted for receivingan end of a first spreader pipe and the second side may include a grooveadapted for receiving an end of a second spreader pipe. A firstinsertion part may include a distal end extending from the flange firstside and may include a shoulder on the distal end, the shoulder beingadapted for abutment with an inside diameter of the first spreader pipe.A second insertion part may include a distal end extending from theflange second side and a shoulder on the distal end. The shoulder may beadapted for abutment with an inside diameter of the second spreaderpipe.

Embodiments consistent with the invention may include a fastenermechanism for securing at least one of the distal ends to one of thespreader pipes. The first and second spreader pipes may includedifferent diameters. The shoulders may include machined end plates. Thegrooves may extend outward from and/or recess into the flange.

According to another embodiment consistent with the invention, a pipereducing connection sleeve for use in a spreader bar assembly mayinclude a flange having a first side and a second side, the first sidemay include a groove adapted for receiving an end of a first spreaderpipe and the second side may include a groove adapted for receiving anend of a second spreader pipe. A first insertion part may include adistal end extending from the flange first side and may include ashoulder on the distal end, the shoulder being adapted for abutment withan inside diameter of the first spreader pipe, and a second insertionpart may include a distal end extending from the flange second side andmay include a shoulder on the distal end, the shoulder being adapted forabutment with an inside diameter of the second spreader pipe, whereinthe second insertion part has a larger diameter than the first insertionpart.

According to another aspect of the invention, the pipe reducingconnection sleeve may include a fastener mechanism for securing at leastone of the distal ends to one of the spreader pipes. The shoulders mayinclude a machined end plate. The grooves may extend outward from and/orrecess into the flange.

These and other advantages and features that characterize the inventionare set forth in the claims annexed hereto and forming a further parthereof. However, for a better understanding of the invention, and of theadvantages and objectives attained through its use, reference should bemade to the Drawings and to the accompanying descriptive matter in whichthere are described exemplary embodiments of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a spreader bar assembly that includes end caps connected tothe ends of the spreader bar pipe in a manner that is consistent withthe present invention.

FIG. 2 shows a perspective view of the end cap shown in FIG. 1.

FIG. 3 shows a side view of the end cap shown in FIGS. 1 and 2.

FIG. 4 shows a perspective view of a spreader bar assembly that shows aconnection sleeve connecting spreader bar pipes together in a mannerthat is consistent with the present invention.

FIG. 5 shows a more detailed perspective view of the pipe connectionsleeve and connected spreader bar pipes shown in FIG. 4.

FIG. 6A shows a side view of a pipe connection sleeve that is consistentwith the present invention.

FIG. 6B shows a side view of a pipe connection sleeve that is consistentwith another embodiment of the present invention.

FIG. 6C shows a side view of a pipe connection sleeve that is consistentwith yet another embodiment of the present invention.

FIG. 6D shows a side view of a pipe connection sleeve that is consistentwith still yet another embodiment of the present invention.

FIG. 7 shows a perspective view of a spreader bar assembly that includesa pipe reducing connection sleeve connecting spreader bar pipes ofdifferent sizes together in a manner that is consistent with the presentinvention.

FIG. 8 shows a more detailed perspective view of the pipe connectionsleeve and connected spreader bar pipes shown in FIG. 7.

FIG. 9 shows a perspective view of the pipe connection sleeve of FIG. 8.

FIG. 10 shows a side view of a pipe connection sleeve with theconnection mechanism on each side of the pipe connection sleeve used toconnect spreader bar pipes of different sizes and diameters in a mannerthat is consistent with the present invention.

DETAILED DESCRIPTION

Embodiments consistent with the underlying principles of the presentinvention include an improved spreader bar assembly, and morespecifically, an end cap and pipe connection sleeve that increase theefficiency of using and assembling a spreader bar assembly. A spreaderbar assembly may include an end cap having a shackle connection part andan insertion part adapted for detachable connection to a spreader pipe.A connection sleeve may include multiple insertion ends for respectiveconnection to respective spreader pipes. Where so configured, the pipesmay have different diameters. Embodiments may provide a system toquickly connect or disconnect the end lift points with the pipeconnection and reducer sleeves.

In a first embodiment, FIG. 1 shows a spreader bar assembly 10comprising an end cap 12 and a single spreader bar 14. The spreader barassembly 10 typically attaches to some lift mechanism, such as a crane,via Y-cables 16. The cables 16 and the assembly 10 may be capable oflifting and holding a load or cargo 18 beneath the spreader bar assembly10 and attached thereto with additional cables 20. The cables 16, 20 maybe attached to the end caps 12 at connection points 22 at the end ofeach end cap 12.

FIGS. 2 and 3 show details of the end cap 12 of FIG. 1 as contemplatedin the present invention. The spreader bar 14 to which the end cap 12attaches is shown with hash marks 14 (see FIG. 3). The first side of theend cap 12 can include connection points 22 comprising, for example,circular holes for the attachment of the load cables 16, 18. The secondside of the end cap can include a circular extension 32 extending from aflange 30 in the middle of the end cap 12. A machined plate 26 at theend of the circular extension 32 may fit against the inner diameter ofthe spreader bar pipe 14 into which the end cap 12 inserts and connects.A groove 28 extending as a shoulder from the flange 30 captures thecut-end diameter of the spreader bar pipe 14. It is also envisioned thatthe groove may consist of a recessed groove (i.e., cut in to theflange), such as described with reference to the second and thirdembodiments hereinbelow, wherein pipe cut-ends are captured in thegroove. The grooves allow the pipe cut-ends to be captured in such amanner as to reinforce the cut-ends and act to increase the loadcapability of the piping while not required permanent affixment such asby welding.

The second end of the end cap can also include a pin assembly 24 forconnection of the end cap to the spreader bar pipe 14. The pin assembly24 includes a hole in the circular extension 32 for insertion of the pinand that corresponds to holes in the spreader bar pipe 14, the pinitself, and a chain attaching the pin to the end cap 12.

A second embodiment of the invention is shown in FIGS. 4, 5, and 6. Thisembodiment includes a pipe connection sleeve 42, similar to the end cap12 discussed in the first embodiment above, to be used in connectingtogether two spreader bars 44 of similar size and diameter. Thisspreader bar assembly 40 contemplated by this embodiment includes thepipe connection sleeve 42, and two or more spreader bars 44 of the sameor similar size and diameter joined together by the pipe connectionsleeves 42. The assembly 40 further includes Y-cables 46 attaching thespreader bars 44, and a pipe connection sleeve 42 to a lift mechanismsuch as a crane, and cables 48 attaching the spreader bar and pipeconnection sleeve to some form of load to be lifted or held.

Similar to the end cap 12 described above in the first embodiment, thesecond side of the pipe connection sleeve 42 in this second embodimentmay include a flange 50 in the middle and a groove 52 at the flange 50to capture the cut-end diameter of the first spreader bar pipe 54. Whilethey both capture the cut-end of a spreader pipe, groove 52 as shown inFIG. 6 is different than that shown with reference to FIG. 2 (depictingan extending shoulder groove) in that it is recessed inwardly in flange50. It is understood, however, that the groove may be a recessed groove,an extending shoulder groove, or a combination of both. The sleeve 42may also include a circular extension 60 from the flange 50 and an endplate 62 at the end of the circular extension 60 for capturing the innerdiameter 64 of the first spreader bar pipe 54. Unlike the firstembodiment, the first side of the pipe connection sleeve 42 may besubstantially a symmetrical duplicate of the second side. The sleeve 42may connect to a second spreader bar pipe 58 of the same size as thefirst spreader bar pipe 54 in the spreader bar assembly 40. This firstside may include a groove 56 at the flange 50 to capture the cut-enddiameter 70 of the second spreader bar pipe 58. The first side may alsoinclude a circular extension 66 from the flange 50 and an end plate 68at the end of the circular extension 66 to capture the inner diameter 70of the second spreader bar pipe 58.

Similar to those described above in the first embodiment individual pipeconnection sleeve 42 may also includes pin assemblies or other mechanismon each side of the middle flange 50 for connecting the pipe connectionsleeve 42 to each spreader bar pipe 44. Each spreader bar pipe can havematching holes in the pipe connection sleeve 42 to receive theconnecting pins. The pins themselves may be attached to the pipeconnection 42 sleeve via chains.

A third embodiment of the present invention is shown in FIGS. 7, 8, 9and 10. This third embodiment contemplates a pipe connection sleeve 82for connecting spreader bars 83, 84, 85 of different sizes anddiameters. Similar to the other spreader bar assemblies discussedherein, this spreader bar assembly 80 can include pipe connectionsleeves 82, the spreader bars 83, 84, 85 and Y-cables 86 for attachingthe spreader bars and sleeves to a lifting mechanism (not shown). Theassembly 80 can also include cables 88 for attaching the spreader barsand pipe connection sleeves to some form of a load.

The pipe connection sleeve 82 may include a middle flange 92. The secondside of the pipe connection sleeve 82 includes a circular extension 98from the flange 92. The extension 98 may include an end plate 100 forconnecting with the inner diameter of the first spreader bar pipe 85,and a groove 94 at the flange 92 for capturing the cut-end diameter ofthe first spreader bar pipe 85.

Unlike the first embodiment described above, the first side of the pipeconnection sleeve 82 includes a circular extension 102 from the flange92 with an end plate 104 at the end for connecting with the innerdiameter of the second spreader bar pipe 84, and a groove 96 at theflange 92 for capturing the cut-end diameter of the second spreader barpipe 84. The circular extension 102, end plate 104, and groove 96 on thesecond side may be of different sizes and diameters than the circularextension 98, end plate 100, and groove 94 on the first side for thepurpose of connecting to a second spreader bar 84 of different size anddiameter than the first spreader bar 85. As described with reference tothe first and second embodiments above, it is understood that thegrooves may be a recessed groove, an extending shoulder groove, or acombination of both.

The circular extensions 98, 102 can include holes 108, 110 for receivingconnection pins 106 that connect the pipe connection sleeve to thespreader bars. The pins 106 can be connected to the pipe connectionsleeve 82 via chains 109.

While the present invention has been illustrated by a description ofvarious embodiments and while these embodiments have been described inconsiderable detail, it is not the intention of the Applicant torestrict, or, in any way limit the scope of the appended claims to suchdetail. The invention in its broader aspects is therefore not limited tothe specific details, representative apparatus and method, andillustrative example shown and described. Accordingly, departures may bemade from such details without departing from the spirit or scope ofApplicant's general inventive concept.

1. A pipe connection sleeve for use in a spreader bar assembly, thesleeve comprising: a) a flange having a first side and a second side,the first side comprising a groove formed thereon, the groove adaptedfor receiving an end of a first spreader pipe and the second sidecomprising a groove formed thereon, the groove adapted for receiving anend of a second spreader pipe; b) a first insertion part comprising anextension portion extending from the flange first side comprising adistal end, the distal end comprising a shoulder, the shoulder beingadapted for abutment with an inside diameter of the first spreader pipe,and wherein the shoulder is of a greater diameter than the extensionportion; and c) a second insertion part comprising an extension portionextending from the flange second side comprising a distal end, thedistal end comprising a shoulder, the shoulder being adapted forabutment with an inside diameter of the second spreader pipe and whereinthe shoulder is of a greater diameter than the extension portion.
 2. Thepipe connection sleeve of claim 1 further comprising a fastenermechanism for securing at least one of the distal ends to one of thespreader pipes.
 3. The pipe connection sleeve of claim 1 wherein atleast one of the insertion part shoulders comprises a machined endplate.
 4. The pipe connection sleeve of claim 1 wherein at least one ofthe grooves extends outward from the flange.
 5. The pipe connectionsleeve of claim 1 wherein at least one of the grooves recesses into theflange.
 6. The pipe connection sleeve of claim 1 wherein the firstinsertion part and second insertion part each have a different diameterfrom one another.
 7. The pipe connection sleeve of claim 6 wherein thefirst and second spreader pipes each have a different diameter from oneanother.